CN101039967A - Butene-1 homo-or copolymers of low isotacticity - Google Patents

Abstract

A butene-1 homopolymer or copolymer characterized by the following properties: a content of butene-1 units in the form of isotactic pentads (mmmm) of between 25 and 55%; intrinsic viscosity [ eta ]]1 to 3dL/g, measured in tetralin at 135 ℃; the content of xylene insoluble fraction at 0 ℃ is between 3 and 60%; and the ratio ES₂/ES₁Not less than 1, wherein ES₁Is the content of boiling diethyl ether soluble fraction determined with the polymer as such, and ES₂Is the content of boiling diethyl ether soluble fraction determined after plastication of the polymer according to the method described in the present specification. The butene-1 The polymers exhibit a good balance between processability and elastomeric behaviour.

Description

Low degree of isotacticity butene-1 homopolymer or multipolymer

Technical field

The present invention relates to have special butene-1 (being total to) polymkeric substance of low degree of isotacticity and elastomer performance.In addition, the invention still further relates to the polymer composition that contains described butene-1 (being total to) polymkeric substance.Special butene-1 (being total to) polymkeric substance with low degree of isotacticity and elastomer performance is known.They can be used as the component with other polyolefinic blend or polymeric articles, so that regulate specified property such as sealing intensity, flexibility and the pliability of plastic material.Specifically, these butene-1s (being total to) polymkeric substance can be used as that additive is used to produce roof boarding, ground surface material and sealing compositions or as the oil viscosity improving agent.For being used for these purposes, such characteristic should be compromised between good workability and plasticity and elastomer performance rightly, and these performances derive from from the crystallization and the pars amorpha of polymkeric substance again.DE 2241412 describe a kind of by butene-1 with TiCl ₃-catalyst based polymerization prepares the method for low degree of isotacticity polybutene.According to the document, the original stereospecificity of this kind catalyzer by with trialkyl aluminium compound as promotor according to specific Al: the usage of Ti mol ratio reduces.However, the contribution of higher crystalline part is still too high.In fact, as can be seen, when with reference to its ether solubles content, this elastomeric properties is dissatisfied when considering to have the polymkeric substance that can process molecular weight.

Background technology

EP 186968 describes a kind of thermoplastic poly butene-1 of height stereoregular, it is characterized in that, compares with traditional isotaxy polybutene-1 to have more tangible elastomer performance.This polybutene-1 obtains by a kind of use of ziegler-natta catalyst systems, and this system comprises (a) and is included in MgCl ₂Give the solid ingredient of body in Ti compound on the carrier and the benzoic ether; (b) alkylaluminium cpd is as promotor; (c) right-ethyl anisate is as the external electronic donor compound.Yet its high-content isotaxy order performance of impact polymer still in this kind operating mode is as indicated by solvable fraction of low levels ether and higher surrender tensile strength value.

At USP 4,298, in 722, reported a kind of preparation of gradable elastomerics polybutene-1, comprise the polymerization of butylene in the presence of catalyzer, wherein catalyzer is general formula (RCH ₂) ₄The organometallic compound of M, wherein M is that Ti, Zr or Hr and R are aryl, aralkyl or tertiary alkyl, with metal oxide such as Al ₂O ₃, TiO ₂, SiO ₂Or the reaction product between the partially hydrated surface of its mixture.The polymkeric substance that directly obtains from this polymerization has very high limiting viscosity, so that it can not adopt legacy equipment processing and hinder it to use in the polymer composition preparation.Its limiting viscosity reduces by heating and this polymkeric substance of plasticating, but the further reduction that brings the solvable fraction of ether when doing like this, the result worsens elastomer performance.Therefore, in order not only to satisfy appropriate range of viscosities but also to satisfy the requirement of final elastomer performance, the prepolymer of plasticating must contain the solvable fraction of very high-load ether.Yet at such contents level, some mechanical property may no longer be fit to some purposes.

Therefore, need still to feel a kind of butene-1 (being total to) polymkeric substance, it has low degree of isotacticity, and appropriate balance between elastomer performance (compression set, extension at break) and the performance brought by the higher crystalline mark (fracture or tensile stress at yield).

Summary of the invention

The applicant has now found that to have so good balance and by butene-1 (being total to) polymkeric substance of following performance characterization:

The butene-1 unit content of-isotaxy pentads form (mmmm) is between 25～55%;

-limiting viscosity [η] is measured in 135 ℃ of tetralines, between 1～3dL/g;

-0 ℃ of dimethylbenzene (in) content of insoluble fraction (or part) is between 3～60%; And

-ratio ES ₂/ ES ₁〉=1, ES wherein ₁Be the content of the solvable fraction of boiling diethyl ether measured with the polymkeric substance of former state, and ES ₂Be to the plasticate content of the solvable fraction of boiling diethyl ether measured of back of polymkeric substance according to following described method.

Specifically, target butene-1 of the present invention (being total to) polymkeric substance is characterised in that:

Solvable fraction content (the ES of-boiling diethyl ether ₁) between 20～75% of gross weight, preferred 30～65%, particularly 35～60%;

Butene-1 unit content 〉=30～50% of-isotaxy pentads form (mmmm), preferred 32～45%;

-limiting viscosity [η] is measured in 135 ℃ of tetralines, between 1.5～3dL/g, and preferred 1.7～2.8dL/g;

The content of-0 ℃ of insoluble fraction of following dimethylbenzene is between 5～50% of total polymer weight.

Of the present invention preferred aspect, this butene-1 (being total to) polymkeric substance has one or more of following performance in addition:

Molecular weight distribution (Mw/Mn) is measured according to the method for stipulating below, between 3.5～9; More preferably between 4～8, particularly 4～7;

Melting heat (Δ H) is measured by dsc (DSC), is lower than 10J/g and fusing point (Tm) and is lower than 106 ℃, preferably is lower than 103 ℃, more preferably less than 100 ℃.In some cases, fusing point even may not exist;

Compression set (25%-22h) is lower than 90%, preferably is lower than 80, more preferably less than 50; And

Rupture stress is being higher than 6, preferred 6.5 to 20MPa scope.

Shao Er A value generally is lower than 80, is lower than 60 in some cases.

In view of these performances, butene-1 of the present invention (being total to) polymkeric substance especially can be used as the component of the employed polymer composition of requirement certain level pliability purposes.

As from shown in the limiting viscosity scope above-mentioned, the molecular weight of polymkeric substance of the present invention is in basically and makes the described 1-Butylene copolymer can be with the scope of conventional apparatus processing.Preferably, the melt index of measuring according to ASTM D1238 condition E is between 0.1～100g/10min, more preferably 0.1～10g/10min.

Butene-1 of the present invention (being total to) polymkeric substance can comprise general formula CH ₂Other alkene of=CHR, wherein R is hydrogen or the C1 that is different from ethyl～C10 alkyl, especially preferably uses ethene, propylene and hexene-1 or its mixture as comonomer.The consumption of additional alkene is preferably between 0.1～20mol% in polymkeric substance of the present invention, more preferably 0.5～15mol%.

The feature of butene-1 of the present invention (being total to) polymkeric substance is that also when instrument of stipulating below adopting by NMR and programanalysis, 4, the 1 unitary signals of butylene that embed do not exist.

As previously described, but polymkeric substance former state of the present invention ground uses, perhaps preferably as with the blend of other polymkeric substance in component be used for varied purposes, as be used for the composition that polymer composition, fiber applications, roof boarding and the road surface of low sealing kick off temperature are used.Because its elastomeric properties, butene-1 (being total to) polymkeric substance even can not need softening agent ground place of flexible vinyl polymer such as highly plasticized polyvinyl chloride or some SEBS mixing material uses.

Therefore, another object of the present invention is a kind of polymer composition, and it comprises:

(A) 1～99wt% target butene-1 of the present invention (being total to) polymkeric substance; With

(B) the another kind of polymeric constituent of 99%～1wt%;

Described percentage ratio is benchmark in (A)+(B) sum.

Specifically, the quantity between (A) can 10～90% exists, and (B) exists with the quantity between 90%～10% simultaneously.Preferably, component (B) comprises alkene (being total to) polymkeric substance.Particularly, component (B) can be selected from ethene (being total to) polymkeric substance, propylene (being total to) polymkeric substance, butene-1 (being total to) polymkeric substance and composition thereof.

Interested especially is the polymer composition that comprises following component:

(A) 5～40wt% butene-1 of the present invention (being total to) polymkeric substance; With

(B) 60～95wt% propylene copolymer wherein comprises 1～30mol% ethene and/or general formula CH ₂The alpha-olefin of=CHR, wherein R is C2～C10 hydrocarbyl group; Described percentage ratio is benchmark in (A)+(B) sum.

Preferably, described alpha-olefin is a butene-1. interested especially is such composition, wherein (B) is selected from: (a) not only comprised ethene but also comprised the propylene copolymer of butene-1, the content of therein ethylene is between 1～10%, and the content of butene-1 is between 1～10%, and the propylene copolymer that (b) comprises 2～15mol% butene-1.

Should show excellent fluidity and transparency for the useful especially described composition in field that requires low sealing kick off temperature (SIT), keep acceptable mechanical property simultaneously.

As the 1-Butylene copolymer of target of the present invention with composition can be accepted to vulcanize or crosslinking Treatment has the composition for thermoplastic elastomer that improves elastomer performance so that produce.Term sulfuration and crosslinked both comprised actual crosslinked or vulcanized also comprise such reaction: in other words, as the result by the promoted reaction of being adopted of cross-linking system, between butene-1 (being total to) polymer molecular chain grafting has taken place.

In the middle of various technical known sulfurization technology, preferred technology is a dynamic vulcanization.When adopting this technology to add man-hour, polymkeric substance of the present invention linking agent and, appropriate, the existence of its co-adjuvant is accepted down to mediate or other shear action.Though the sulfurized temperature range generally between 140～240 ℃, now is surprised to find, be lower than 50 for Shao Er D, preferably be lower than 40 polybutene, polybutene particularly of the present invention, the cross-linking process temperature between 100～150 ℃ is implemented.Therefore, spendable linking agent is those technical common general knowledge, for example, organo-peroxide (for example: 1,1-two (t-butyl peroxy)-3,3,5-trimethyl-cyclohexane; Two hexadecyl peroxides, two carbonic ethers; T-butyl peroxy-2-ethylhexanoate), preferably have, in the said temperature scope, the transformation period about 10～200s.Polymkeric substance of the present invention or composition can flood with oily extender, so that regulate its hardness, perhaps before linking agent adds or when sulfuration beginning or end.Employed oily extender can be a various kinds, and for example, aromatics, cycloalkanes belong to or preferably, paraffinic hydrocarbon.As the crosslinked compound of assisting a ruler in governing a country, can use liquid 1,2-polyhutadiene or preferably, the trimethacrylate type compound of triallyl cyanurate and TriMethylolPropane(TMP).

Butene-1 of the present invention (being total to) polymkeric substance can be by the polymerization preparation of monomer in the presence of low stereospecificity catalyzer, and this catalyzer comprises (A) at MgCl ₂The Ti compound on the carrier and the solid ingredient of interior electron donor(ED); (B) alkylaluminium cpd.Of the present invention's (being total to) method for producing polymer preferred aspect, do not use the external electronic donor compound, so that do not increase the stereoregular regulating power of catalyzer.Under the situation of using external donor, its consumption and use mode should maintain in the limit that does not produce too high quantity height stereoregular polymer.

The activity form magnesium dichloride is preferably used as carrier.From the patent documentation common general knowledge, the activity form magnesium dichloride is particularly suitable as the carrier of Ziegler-Natta catalyst.Particularly, USP4,298,718 and USP 4,495,338 at first reported the application of this compounds in Ziegler-Natta catalyst.From these documents, learn, as carrier or help-activity form magnesium dihalide that carrier uses in all components of catalyst for olefines polymerizing characterizes with the X-ray spectra, wherein appear at the strength reduction of strong diffracted ray in the nonactive halogenide collection of illustrative plates, and by a kind of its maximum strength to, for strong line strength, the halogen of more low-angle direction displacement substitutes.

The titanium compound that is preferred in the catalyst component of the present invention is TiCl ₄And TiCl ₃Also can use general formula Ti (OR) in addition _N-yX _yTi-halo alkoxide, wherein n is the valency of titanium, X is a halogen, preferred chlorine, and y is the number between 1～n.

This compound of internal electronic donors preferably is selected from ester, more preferably is selected from monocarboxylic acid such as phenylformic acid or poly carboxylic acid, and for example, the alkyl of phthalic acid or succsinic acid, cycloalkyl or aryl ester, described alkyl, cycloalkyl or aromatic yl group have 1～18 carbon atom.The example of described electronic donor compound capable is diisobutyl phthalate, diethyl phthalate and dihexyl phthalate.Generally speaking, compound of internal electronic donors is according to 0.01～1, preferred 0.05～0.5 and MgCl ₂Between mol ratio use.

The preparation of ingredient of solid catalyst can be implemented according to several method.

According to a preferred method, ingredient of solid catalyst can be by the prepared in reaction between the following component: general formula Ti (OR) _N-yX _yTitanium compound, wherein n is the valency of titanium, and y is the number between 1～n, preferred TiCl ₄, and by formula M gCl ₂The affixture deutero-magnesium chloride of pROH, wherein p is the number between 0.1～6, and is preferred 2～3.5, and R is the alkyl of 1～18 carbon atom.This affixture is made the form of ball aptly as described below: order alcohol with in the presence of the miscible unreactive hydrocarbons of this affixture is not mixing with magnesium chloride, operates in therebetween under the agitation condition of melt temperature (100～130 ℃) of affixture.Subsequently, with this emulsion quenching, thereby cause affixture to solidify with the spheroidal particle form.Example by the spherical affixture of this program preparation is described in USP 4,399,054 and USP 4,469,648 in.So the affixture that obtains can be directly and titanium compound react, perhaps it can accept the dealcoholation treatment (80～130 ℃) under the thermal control in advance, generally is less than 3 thereby obtain a kind of pure mole number that contains, preferably between 0.1～2.5 affixture.Can implement like this with the reaction of titanium compound: affixture (dealcoholysis or former state obtain) is suspended in cold TiCl ₄In (general 0 ℃); With mixture heating up to 80～130 ℃, and at this temperature maintenance 0.5～2h.With TiCl ₄Processing can implement 1 or repeatedly.Compound of internal electronic donors can be with TiCl ₄Add during the processing.The processing of carrying out with electronic donor compound capable can repeat 1 or repeatedly.

The preparation of spherical form catalyst component is described in, for example, and among European patent application EP-A-395083, EP-A-553805, EP-A-553806, EPA-601525 and the WO98/44001.

The ingredient of solid catalyst that obtains according to top method shows generally between 20～500m ²/ g is preferably between 50～400m ²The surface area of/g (B.E.T. method) and be higher than 0.2cm ³/ g is preferably between 0.2～0.6cm ³The total porosity of/g (Hg method).Corresponding to radius maximum to 10, the porosity of 000 dust (Hg method) is generally between 0.3～1.5cm ³/ g, preferred 0.45～1cm ³/ g.

Alkylaluminium cpd (B) preferably is selected from trialkyl aluminium compound, for example, and triethyl aluminum, triisobutyl aluminium, three n-butylaluminum, tri-n-hexyl aluminum, tri-n-octylaluminium.Also can use the halogenide of trialkylaluminium and aluminum alkyls, the hydride of aluminum alkyls or the sesquichloride such as the AlEt of aluminum alkyls ₂Cl and Al ₂Et ₃Cl ₃Mixture.

If use, then external donor (C) preferably is selected from general formula R _a ⁵R _b ⁶Si (OR ⁷) _cSilicon compound, wherein a and b are 0～2 integers, c be 1～3 integer and and (a+b+c) be 4; R ⁵, R ⁶And R ⁷Be alkyl, cycloalkyl or aryl, have 1～18 carbon atom, randomly contain heteroatoms.Particularly preferred silicon compound classification is, wherein a is 0, and c is 3 and R ⁶Be branched-alkyl or group of naphthene base, randomly contain heteroatoms, and R ⁷Be those classifications of methyl.This type of preferred silicon compound is cyclohexyl trimethoxy silane, tert-butyl trimethoxy silane and hexyl (thexyl) Trimethoxy silane.Hexyl (thexyl) Trimethoxy silane is particularly preferred.

If use, then external electronic donor compound (C) is higher than 500 providing, and the quantity that preferably is higher than 700 organo-aluminium compound and the weight ratio between the described electronic donor compound capable feeds.

Also can be in prepolymerization step the described catalyzer of prepolymerization.Described prepolymerization can generally be lower than 100 ℃ in liquid (slurry or solution) or in gas phase, preferably implement between 20～70 ℃ temperature.It serves as to obtain the every gram ingredient of solid catalyst of 0.5～2000g that prepolymerization step carries out one section with small amounts of monomer, preferred 5～500, more preferably the needed time of polymkeric substance of the every gram ingredient of solid catalyst of 10～100g quantity.

Polymerization process can be implemented according to technique known, and for example, slurry polymerization adopts liquid unreactive hydrocarbon as thinner, and perhaps solution polymerization is adopted, and for example, liquid maleic-1 is as reaction medium.In addition, also can in gas phase, implement polymerization process, operate in 1 or a plurality of fluidisation or mechanical stirring reactor in.The polymerization of implementing in liquid maleic-1 reaction medium is highly preferred.

Polyreaction is generally at 20～120 ℃, and preferred 40～90 ℃ temperature is carried out.Polyreaction can 1 or a plurality of reactor in carry out, they are operable in identical or different reaction conditions, for example, concentration of molecular weight regulator, comonomer concentration, external electronic donor concentration, temperature, pressure etc.When adopting 2 or more during multistage, the device configuration can adopt the cascade pattern, wherein monomer/catalyst/polymer reaction mixture comes out to enter into the next one from first reactor.Alternatively, take configuration in parallel, 2 or more a plurality of reactor work independently together with their feed systems separately, the monomer/catalyst/polymer reaction mixture that comes out from these reactors is collected in together and is sent to final processing sections.Operating at least 2 can cause butene-1 (being total to) polymkeric substance of these two reactor made to have different molecular-weight average and/or different three-dimensional regularities in the reactor under the different condition.In addition, operate in the reactor under the different condition, to have more than 1 and can regulate each polymerization stage rightly so that customize the such advantage of final polymer performance rightly.This kind technology can adopt in the time will preparing the product with unusual high-content xylene-soluble fraction.This type of product in fact may operate at some and throw into question, for example, and granulation.The applicant finds, produce 2 kinds of polymkeric substance with the insoluble fraction of different content dimethylbenzene and can produce a kind of final polymkeric substance in 2 obvious differences, placed in-line reactor, it is than only better processing from 1 polymerization stage deutero-product with the insoluble fraction content of identical final dimethylbenzene.This for example can by only 1 or the reactor of a plurality of selections in use the external donor that can make catalyzer have bigger stereospecificity on a small quantity to realize.(being total to) polymkeric substance that obtains from the polymerization of 2-section can have and the identical purposes of multipolymer that obtains by a single cover polymerizing condition.

Mention above, multipolymer of the present invention is applicable to multiple use.As habitual way, each person skilled of these purposes (for example can add other polymeric constituent, additive, stablizer, antioxidant, anticorrodent, nucleator, processing aid, wet goods) and the organic and mineral filler of giving property, only otherwise depart from main points of the present invention.

Provide the following examples, be intended to the present invention is described better but do not constitute restriction it.

Identify

Co-monomer content ¹³C NMR analyzes

¹³The C-NMR spectrometry at the solution (8-12wt%) of polymkeric substance in two deuterate sym.-tetrachloroethane 120 ℃ of enforcements.Should ¹³C-NMR spectrum obtains on Bruker DPX-400 spectrophotometer, and measurement operation is adopted 90 ° of pulses under 100.61MHz, Fu Li leaf pattern, 120 ℃, and the time-delay 15s between pulse and the CPD (WALTZ16) is so that elimination ¹H- ¹³The C lotus root is closed.About 1500～2000 width of cloth transient states are stored in the 32K data point, adopt 60ppm (0～60ppm) spectrum range (window).

Co-monomer content in butylene/propylene copolymer

Propylene content obtains from tlv triple distribution ([P]=[PPP]+[PPB]+[BPB]), and method of calculation are as follows:

BBB＝M/∑ BBP＝L/∑ PBP＝I/∑

BPB＝0.5D/∑ BPP＝[A+0.5(B+E)]/∑ PPP＝(C+0.5B)/∑

∑=M+L+I+0.5D+[A+0.5 (B+E) wherein]+(C+0.5B) and A, and B, C, D, E, I, L, M is ¹³The integration of the peak value in the C-NMR collection of illustrative plates (CH in the side chain of employing isotaxy BBBBB pentads ₂The peak value that is positioned at 27.73ppm of carbon contribution is as confidential reference items).The appointment of these peak values is according to H.N.Cheng, Journal of Polymer Science, and Polymer Physics Edition, 21,573 (1983) make, among the A that is provided in the table below.

Table A

The zone	Chemical shift	Specify	In proper order
				A	47.15	CH 2Chain	BPPB
B	46.83	CH 2Chain	PPPB
				C	46.52	CH 2Chain	PPPP
D	43.67	CH 2Chain	BPBX
				E	43.37	CH 2Chain	PPBX
I	28.13	CH 2Side chain	PBP
				L	27.93	CH 2Side chain	BBP
M	27.73	CH 2Side chain	BBB

With ¹³C NMR determines mmmm%

The appointment of the pentads in side chain mesomethylene carbon interval be according to

Carbon-13 NMR Spectral Assignment of Five PolyolefinsDetermined from the Chemical Shift Calculation and the Polymerization Mechanism, T.Asakura and others, Macromolecules 1991,24 2334-2340 are specified.

Since overlapping between the stereoregular pentads, mmmm pentads be by with

Two-site model analysis of ¹³C NMR of polypropylenepolymerized by Ziegler-Natta catalyst with external alkoxysilane donors, R.Chuj , Y.Kogure, T.V   n  nen, Polymer, 1994,35, the 2 position model-fittings experiment pentads described among the 339-342 distribute and obtain.The mmmm% that provides in table 1 is corresponding to the numerical value that obtains by the best-fit program.

4,1 butylene that embed are unitary to be determined

Under the situation of chevron or butylene/propylene copolymer, 4, the 1 unitary content of butylene that embed pass through ¹³The C-NMR spectrometry adopts above-described experiment condition to detect.4, the 1 unitary appointments that embed are according to V.Busico, R.Cipullo, and A.Borriello, Macromol.Rapid.Commun.16,269, (1995) are made, among the B that is provided in the table below.

Table B

Peaking displacement study carbon order

(ppm)

Q 37.3 CH - CH(CH ₂CH ₃)-(CH ₂)5- CH(CH ₂CH ₃)-

Measure MWD with gel permeation chromatography (GPC)

This be adopt to be equipped with TSK post group (model GMHXL-HT) Waters 150-CALC/GPC system under 135 ℃ with 1, the 2-dichlorobenzene is operated with the flow rate of 1ml/min as solvent (ODCB) (with 0.1 volume 2,6 ditertiary butyl p cresol (BHT) stabilization).Sample is dissolved among the ODCB by continuously stirring 1h under 140 ℃ temperature.Solution filters by 0.45 μ m polytetrafluoroethylene film.Filtrate (concentration 0.08～1.2g/l injects volume 300 μ l) is carried out gpc analysis.The single fraction of disperseing that adopts polystyrene (by Polymer Laboratories supply) is as standard.General calibration to the PB multipolymer is PS (K=7.11 * 10 of adopting the Mark-Houwink constant ^-5Dl/g; α=0.743) and PB (K=1.18 * 10 ^-4Dl/g; α=0.725) linear combination of the two is finished.

Thermal characteristics

Fusing point (the T of polymkeric substance _m) adopt dsc on Perkin Elmer DSC-7 instrument, measure according to standard method.The sample of weighing (5-7mg) that obtains from polymerization is sealed in the aluminium dish and at 180 ℃ and heats with 10 ℃/min.Sample keeps 5min so that allow the complete fusion of all crystal grains at 180 ℃, is cooled to 20 ℃ with 10 ℃/min subsequently.After placing 2min under 20 ℃, sample is heated to 180 ℃ for the second time with 10 ℃/min.For the second time in the heat-processed, gather peak temperature at this as melt temperature (T _m), the area under the peak value is as melting enthalpy (Δ H _f).

Shao Er A and D determine

Measure according to ASTM D2240

Tensile property

Measure according to anti-the opening of ISO 527-, sample is the thick coupons of 1.9mm, and the preparation method is: in Brabender plastometer at 180 ℃ of mixing related copolymers samples and 1%2,6-di-tert-butyl-4-methy phenol (BHT).Resultant polymer composition is carried out compression molding (200 ℃, 30 ℃/min cooling), make sample.Unless point out separately, it all is sample to be placed in the potheater of room temperature and 2kbar pressure keep carrying out behind the 10min that all mechanics are measured.

Compression set

Measure according to ASTM D395B Class1, the sample of compression moulding is handled 1min in the potheater under room temperature and 2kbar in advance.So the sample that obtains is compressed 25% of original thickness, places 22h in the baking oven of 70 ℃ or 23 ℃.

The mensuration of the insoluble fraction of dimethylbenzene

For determining to be insoluble to 0 ℃ of fraction (X.I.%) in the dimethylbenzene, the 2.5g polymkeric substance under agitation is dissolved in 135 ℃ the 250mL dimethylbenzene, behind the 20min, makes it be cooled to 0 ℃.Behind the 30min, leach sedimentary polymkeric substance and with its under reduced pressure 80 ℃ of dryings until reaching constant weight.

Limiting viscosity [η]

In 135 ℃ tetraline, measure (ASTM 2857-70)

The mensuration of the solvable fraction of diethyl ether

For determining to dissolve in the fraction in the diethyl ether, polymkeric substance extracts according to the Kumagawa program.In inert atmosphere, the 2g polymkeric substance is transferred in the Mierocrystalline cellulose sleeve and with glass cylinder and is suspended in the 300mL diethyl ether.Ether heats under reflux temperature, drips on the polymkeric substance continuously after allowing steam condense in the flask condenser.Mode like this, polymkeric substance is covered with consistently by solvent, the reflux temperature of the as many as ether of extraction temperature.

Extraction continues 15h.Solvable fraction reclaims in ethereal solution by adding methyl alcohol (600mL).Behind the 30min, leach sedimentary polymkeric substance and under reduced pressure, 80 ℃ of dryings are until reaching constant weight.

The program of plasticating

The 40g polymkeric substance is introduced in has 55cm ³In Bradley Bender 2100 plastometers of chamber size, and accept 140 ℃ temperature, 5min, the processing of the mixing condition of 90rpm.

After polymkeric substance is discharged, accept further test.

Embodiment

The preparation of ingredient of solid catalyst

In 500mL four neck flasks, add 225mL TiCl at 0 ℃ with purging with nitrogen gas ₄Under agitation, add 6.8g microspheroidal MgCl ₂2.7C ₂H ₅OH (according to USP 4,399,054 embodiment 2 described preparations, but operate in 3,000rpm rather than 10,000).Flask is heated to 40 ℃, adds the 4.4mmol diisobutyl phthalate subsequently.Temperature is elevated to 100 ℃, keeps 2h then, stops subsequently stirring, and allows solid product sedimentation and siphon fall supernatant liquid.

Add the fresh TiCl of 200mL ₄, mixture is at 120 ℃ of following reaction 1h, supernatant liquid is fallen in siphon subsequently, obtained give body with anhydrous hexane 60 ℃ of washings 6 times (6 * 100mL), drying under reduced pressure then.Catalyst component comprises 2.8wt%Ti and 12.3wt% phthalic ester.

Embodiment 1

In the 4L potheater, 70 ℃ with nitrogen gas stream purge 1h, in nitrogen, 30 ℃ introduce down 75mL and contain 7mmol AliBu ₃Anhydrous hexane and the ingredient of solid catalyst for preparing as mentioned above of 20mg.Airtight potheater under agitation adds 1.3kg liquid maleic-1 subsequently.Temperature is elevated to 70 ℃ in 5min, polyreaction is carried out 2h under this temperature.After this time, stopped reaction bleeds off the unreacted butene-1, and polymkeric substance is through reclaiming then dry 6h under 70 ℃, vacuum.Polymerization activity is 13kg polymkeric substance/g catalyzer.The feature of final polybutene-1 product is stated from table 1. ¹³C NMR does not detect 4, and 1-butylene embeds the unit.

Embodiment 2

Repeat the preparation of description among the embodiment 1, different is to add 100cm in polymerization batches ³Hydrogen.The feature of final polybutene-1 product is stated from table 1. ¹³C NMR does not detect 4, and 1-butylene embeds the unit.

Embodiment 3

Repeat the preparation of description among the embodiment 1, different is to add 250cm in polymerization bath ³Hydrogen.The feature of final polybutene-1 product is stated from table 1. ¹³C NMR does not detect 4, and 1-butylene embeds the unit.

Embodiment 4

Repeat the preparation of description among the embodiment 1, different is that polymerization temperature is set in 80 ℃.The feature of final polybutene-1 product is stated from table 1.13C NMR does not detect 4, and 1-butylene embeds the unit.

Embodiment 5

Repeat the preparation of description among the embodiment 4, different is to add 100cm in polymerization bath ³Hydrogen.The feature of final polybutene-1 product is stated from table 1. ¹³C NMR does not detect 4, and 1-butylene embeds the unit.

Embodiment 6

Adopt sequential polymerization to prepare the butene-1 homopolymer

Sequential polymerization is implemented in 2 liquidoid stirred reactors that are one another in series, and wherein liquid maleic-1 is as liquid medium.Adopt and identical catalyzer described in the embodiment of front.Catalyst component (Al-alkyl/catalyst weight is than 38) contacts in advance at 10 ℃, is injected into subsequently in first reactor that operates under 75 ℃, does not feed hydrogen.After the 170min polymerization, the material of first reactor is transferred in second reactor, and at this, polyreaction is proceeded under similarity condition.Stop polymerization behind the 100min, collect and identify final polymkeric substance.According to polymerization activity, all about 70% of polymkeric substance in first polymerization procedure, generate, and demonstrate 30% the insoluble fraction of dimethylbenzene.The qualification result that final copolymer is implemented is stated from table 1.

Embodiment 7

Adopt sequential polymerization to prepare the butene-1 homopolymer

Adopt and identical device and catalyzer described in the embodiment 6.In the present embodiment, weight ratio Al-alkyl/catalyst weight ratio is 40, and first reactor operates in 75 ℃, does not feed hydrogen.After the 150min polymerization, the material of first reactor is transferred in second reactor, at this, also uses the hexyl Trimethoxy silane as external donor for the weight ratio of body with 950 Tibal/.Polyreaction continues 100min in second reactor, stop subsequently, collects and identify final polymkeric substance then.According to polymerization activity, all about 75% of polymkeric substance in first polymerization procedure, generate, and demonstrate 28% the insoluble fraction of dimethylbenzene.All the insoluble fraction of dimethylbenzene of polymkeric substance is 35%.The qualification result that final copolymer is implemented is stated from table 1.Shao Er D numerical value is lower than 30.

Embodiment 8

The preparation of butene-1/propylene copolymer

Repeat the preparation of description among the embodiment 4, different is that the feeding butene-1 feeds the 10g propylene later on.During the polyreaction, pressure is kept constant by the feeding propylene.Final polymkeric substance, its qualification result is stated from table 1, contains 2.6wt% (NMR mensuration) propylene.

Embodiment 9

The preparation of butene-1/hexene copolymer

Repeat the preparation described in the embodiment 1, different is fed 125g hexene-1 before the feeding butene-1, and polymerization temperature to be 75 ℃.Final polymkeric substance, its qualification result is stated from table 1, contains 4.3wt% (NMR mensuration) hexene-1.Dsc analysis does not demonstrate melting peak.

Embodiment 10

The preparation of butene-1/ethylene copolymer

Repeat the preparation of description among the embodiment 1, different is that the feeding butene-1 feeds 3g ethene later on.During the polyreaction, pressure is kept constant by feeding ethene.Final polymkeric substance, its qualification result is stated from table 1, contains 0.9wt% (NMR mensuration) ethene.Dsc analysis does not demonstrate melting peak.

Embodiment 11

The preparation of butene-1/ethylene copolymer

Repeat the preparation of description among the embodiment 10, different is that the feeding butene-1 feeds 28g ethene later on, and polymerization temperature is 75 ℃.Final polymkeric substance, its qualification result is stated from table 1, contains 10.1wt% (NMR mensuration) ethene.Dsc analysis does not demonstrate melting peak.

Embodiment 12

The preparation of butene-1/ethylene/propene terpolymer

Repeat the preparation of description among the embodiment 10, different is that the feeding butene-1 feeds 3g ethene and 5g propylene later on.During the polyreaction, pressure is kept constant by feeding 2/1g/g ethylene/propylene mixture.Final polymkeric substance, its qualification result is stated from table 1, contains 1.1wt% ethene and 0.9wt% propylene.Dsc analysis does not demonstrate melting peak.

Embodiment 13

The preparation of butene-1/propylene/hexene terpolymer

Repeat the preparation of description among the embodiment 13, different is that the feeding butene-1 feeds the 5g propylene later on.During the polyreaction, pressure is kept constant by the feeding propylene.Final polymkeric substance, its qualification result is stated from table 1, contains 5.6wt% (NMR mensuration) propylene and 4wt% hexene.Dsc analysis does not demonstrate melting peak.

Embodiment 14

Prepare a kind of mechanical blend, the butene-1 homopolymer and 10% that comprises 90wt% embodiment 7 contains 3.2wt% ethene, 6wt% butene-1 and MFR (230 ℃ 2.16kg) equal 5.5, the propylene terpolymers of 133 ℃ of fusing points.The film produced of composition is transparent thus, and modulus in flexure equals 13MPa, MFR (230 ℃ 2.16kg) equal 1.2 and extension at break 512%.

Embodiment 15

38g is introduced in 90 ℃ of spot cloth under the temperature in the Banbury mixer together with 2g peroxide two carbonic acid two hexadecyl esters according to the polymkeric substance of embodiment 7 described acquisitions.Mixture carries out 6min under 60rpm mixing so that product is implemented dynamic crosslinking, and subsequently, this mixture of 30g is molding (at 180 ℃ of compression moulding 7min) and accept the compression set test according to the method for stipulating above onboard, but without the potheater ageing.Compression set is 39%.

Embodiment 16

38g according to the polymkeric substance of embodiment 7 described acquisitions together with 1.6g triallyl cyanurate/silicon-dioxide blend (50/50) and 0.4g 1,1-two (t-butyl peroxy)-3,3,5-trimethyl-cyclohexane/silicon-dioxide blend (40/60) is introduced in 140 ℃ of spot cloth under the temperature in the Banbury mixer.Mixture carries out 6min under 60rpm mixing so that product is implemented dynamic crosslinking, and subsequently, this mixture of 30g is molding (at 180 ℃ of compression moulding 7min) and accept the compression set test according to the method for stipulating above onboard, but without the potheater ageing.Compression set is 48%.

Table 1

Ex		1	2	3	4	5	6	7	8	9	10	11	12	13
															X.I.	％wt	11.3	35.3	37.9	19	40.4	37	35	3.1	6	28.2	22.9	7.3	20.6
[η]	dL/g	2.61	2.58	2.21	2.2	1.81	2.55	2.5	2.68	2.7	2.5	1.7	3	2.34
															ES2/ES1		＞1	＞1	＞1	＞1	＞1	＞1	＞1	＞1	＞1	＞1	＞1	＞1	＞1
Tm	℃	-	103	102.5	98.6	101.1	105.7	nm	81.5	Nd	Nd	Nd	Nd	Nd
															ΔH	J/g	6.9	8.1	8.2	4.1	8.5	nm	nm	2.5	Nd	Nd	Nd	Nd	Nd
mmmm	％	35	44.2	44.4	35.2	38.3	51.7	nm	37	38.8	43.9	50.2	38.5	37.7
															M.I.″E″	g/10′	0.36	0.33	0.58	0.58	0.81	0.5	0.4	nm	nm	nm	nm	nm	nm
Tensile stress at break	MPa	8.3	12.1	13.8	8.1	9.3	12.5	12	4.4	7	nm	nm	6.7	6.3
															Extension at break	％	715	605	485	810	660	490	420	440	＞500	nm	nm	670	703
Compression set (RT)	％	72	80	34	30		76	42	nm	nm	nm	nm	nm	nm
															Compression set (70 ℃)	％	-						41	77	70	nm	nm	63	88
Shao Er A		56.5	71	68	57	64	76	77	64	56	nm	nm	60	34

The nm=undetermined

Nd=does not detect peak value---amorphous polymer

Claims (14)

1. butene-1 homopolymer or multipolymer with a following performance characterization:

The butene-1 unit content of-isotaxy pentads form (mmmm) is between 25～55%;

-limiting viscosity [η] is measured in 135 ℃ of tetralines, between 1～3dL/g;

-at the content of 0 ℃ of insoluble fraction of dimethylbenzene between 3～60%; And

-ratio ES ₂/ ES ₁〉=1, ES wherein ₁Be the content of the solvable fraction of boiling diethyl ether measured with the polymkeric substance of former state, and ES ₂Be to the plasticate content of the solvable fraction of boiling diethyl ether measured of back of polymkeric substance according to the described method of this specification sheets.

2. the butene-1 homopolymer or the multipolymer of claim 1, wherein the butene-1 unit content of isotaxy pentads form (mmmm) is between 30～50%.

3. the butene-1 content 0 ℃ of soluble fraction of dimethylbenzene is 5～50% of total polymer weight.

4. the butene-1 homopolymer or the multipolymer of claim 1, wherein limiting viscosity [η] is between 1.5～3.

5. the polybutene-1 of claim 1, its Mw/Mn value is between 3.5～9.

6. the butene-1 homopolymer or the multipolymer of claim 1, the content (ES of the solvable fraction of diethyl ether of wherein seething with excitement ₁) between 20～75%.

7. the butene-1 homopolymer or the multipolymer of claim 1, its rupture stress is higher than 6MPa and Shao Er A is lower than 80.

8. the 1-Butylene copolymer of claim 1 contains one or more general formulas CH ₂The alkene of=CHR, wherein R is hydrogen or the C1 that is different from ethyl～C10 alkyl.

9. polymer composition, it comprises:

(A) 1～99wt% target butene-1 of the present invention (being total to) polymkeric substance; With

(B) the another kind of polymeric constituent of 99%～1wt%;

Described percentage ratio is benchmark in (A)+(B) sum.

9. the method for the 1-Butylene copolymer of preparation claim 1 comprises that butene-1 is comprising (A) carrier band at MgCl ₂On the Ti compound and the solid ingredient of compound of internal electronic donors; (B) catalyst system of alkylaluminium cpd carries out polymerization under existing.

10. the method for claim 9, wherein the external electronic donor compound is as further component (C), and its consumption should provide and be higher than 500 organo-aluminium compound and the weight ratio between the described external electronic donor compound.

11. the method for any one in the claim 9～10 is implemented in the reactor that operates in more than 1 under the different polymerizing conditions.

12. the method for claim 10 and 11 is implemented in 2 reactors, and be it is characterized in that, only uses external donor in 1 reactor.

13. Shao Er D is lower than 40 the butene-1 homopolymer or the cross-linking method of multipolymer, implements in the presence of linking agent and between 100～150 ℃ temperature.